Patent application number | Description | Published |
20140109958 | METHOD OF IN-SITU FABRICATING INTRINSIC ZINC OXIDE LAYER AND THE PHOTOVOLTAIC DEVICE THEREOF - A method of fabricating a photovoltaic device includes forming an absorber layer for photon absorption over a substrate, forming a buffer layer above the absorber layer, wherein both the absorber layer and the buffer layer are semiconductors, and forming a layer of intrinsic zinc oxide above the buffer layer through a hydrothermal reaction in a solution of a zinc-containing salt and an alkaline chemical. | 04-24-2014 |
20140130856 | MOLYBDENUM SELENIDE SUBLAYERS WITH CONTROLLED THICKNESS IN SOLAR CELLS AND METHODS FOR FORMING THE SAME - A solar cell with a molybdenum back electrode layer and a molybdenum selenide ohmic contact layer over the molybdenum back electrode, is provided. The molybdenum selenide layer includes an accurately controlled thickness. A distinct interface exists between the molybdenum back electrode layer and the molybdenum silicide layer. The molybdenum silicide layer is produced by forming a molybdenum layer or a molybdenum nitride layer or a molybdenum oxide layer over an initially formed molybdenum layer such that an interface exists between the two layers. A selenization and sulfurization process is carried out to selectively convert the molybdenum-containing layer to molybdenum selenide but not the original molybdenum back electrode layer which remains as a molybdenum layer. | 05-15-2014 |
20140144769 | SPUTTERING APPARATUS AND METHOD - A sputtering apparatus comprises a chamber configured to contain at least one sputter target and at least one substrate to be coated. The chamber has at least one adjustable shielding member defining an adjustable aperture. The member is positioned between the at least one sputter target and the at least one substrate. The aperture is adjustable in at least one of the group consisting of area and shape. | 05-29-2014 |
20140206132 | METHOD FOR INDIUM SPUTTERING AND FOR FORMING CHALCOPYRITE-BASED SOLAR CELL ABSORBER LAYERS - A solar cell includes an absorber layer formed of a CIGAS, copper, indium, gallium, aluminum, and selenium. A method for forming the absorber layer provides for using an indium-aluminum target and depositing an aluminum-indium film as a metal precursor layer using sputter deposition. Additional metal precursor layers such as a | 07-24-2014 |
20140352751 | SOLAR CELL OR TANDEM SOLAR CELL AND METHOD OF FORMING SAME - A solar cell includes an absorber layer, a buffer layer on the absorber layer, a front contact layer where a glass substrate, a back contact layer on the glass substrate, the absorber layer on the back contact layer, the buffer layer, and the front contact layer are manufactured as a first module at a temperature exceeding 500 degrees Celsius. The solar further includes an extracted portion from the first module where the extracted portion includes the absorber layer, the buffer layer, and the front contact layer, and where the extracted portion is applied to a flexible substrate or other substrate. | 12-04-2014 |
20140360864 | APPARATUS AND METHODS FOR FORMING CHALCOPYRITE LAYERS ONTO A SUBSTRATE - A method generally comprises providing heat to a substrate in at least one buffer chamber and transferring the substrate to at least one deposition chamber that is coupled to the buffer chamber via an conveyor. The method also includes depositing a first set of a plurality of elements, using sputtering, and a second set of a plurality of elements, using evaporation, onto at least a portion of the substrate in the deposition chamber. | 12-11-2014 |
20140370623 | EVAPORATION APPARATUS AND METHOD - An evaporation apparatus comprises a chamber configured to contain at least one dispensing nozzle and at least one substrate to be coated. The chamber has at least one adjustable shielding member defining an adjustable aperture. The member is positioned between the at least one dispensing nozzle and the at least one substrate. The aperture is adjustable in at least one of the group consisting of area and shape. The at least one adjustable shielding member has a heater. | 12-18-2014 |
20150044814 | APPARATUS AND METHOD FOR FORMING CHALCOGENIDE SEMICONDUCTOR ABSORBER MATERIALS WITH SODIUM IMPURITIES - A method and system for forming chalcogenide semiconductor absorber materials with sodium impurities is provided. The system includes a sodium vaporizer in which a solid sodium source material is vaporized. The sodium vapor is added to reactant gases and/or annealing gases and directed to a furnace that includes a substrate with a metal precursor material. The precursor material reacts with reactant gases such as S-containing gases and Se-containing gases according to various process sequences. In one embodiment, a selenization operation is followed by an annealing operation and a sulfurization operation and the sodium vapor is caused to react with the metal precursor during at least one of the annealing and the sulfurization steps to produce a chalcogenide semiconductor absorber material that includes sodium dopant impurities. | 02-12-2015 |
20150050772 | METHOD OF FORMING CHALCOPYRITE THIN FILM SOLAR CELL - In a method of forming a CIGS film absorption layer, a first precursor is provided including a first substrate having a major process precursor film formed thereon, the major process precursor film containing two or more of Cu, In, Ga, and Se. A second precursor is provided including a second substrate having an element supplying precursor film formed thereon, the element supply precursor film containing two or more of Cu, In, Ga and Se. The precursors are oriented with the major process precursor film and element supplying precursor film facing one another so as to allow diffusion of elements between the films during annealing. The oriented films are annealed and then the precursors are separated, wherein the CIGS film is formed over the first substrate and either a CIGS film or a precursor film containing two or more of Cu, In, Ga, and Se remains over the second substrate. | 02-19-2015 |
20150059850 | PHOTOVOLTAIC DEVICE WITH BACK REFLECTOR - A device and method of improving efficiency of a thin film solar cell by providing a back reflector between a back electrode layer and an absorber layer. Back reflector reflects sunlight photons back into the absorber layer to generate additional electrical energy. The device is a photovoltaic device comprising a substrate, a back electrode layer, a back reflector, an absorber layer, a buffer layer, and a front contact layer. The back reflector is formed as a plurality of parallel lines. | 03-05-2015 |
20150079717 | APPARATUS AND METHODS FOR FABRICATING SOLAR CELLS - A method for fabricating a solar cell generally comprises delivering a solar cell substructure to a chamber. Electromagnetic radiation is generated using a wave generating device that is coupled to the chamber such that the wave generating device is positioned proximate to the solar cell substructure. The electromagnetic radiation is applied onto at least a portion of the solar cell substructure to facilitate the diffusion of at least one metal element through at least a portion of the solar cell substructure such that a semiconductor interface is formed between at least two different types of semiconductor materials of the solar cell substructure. | 03-19-2015 |